English

All-in-fiber dynamic orbital angular momentum mode sorting

Optics 2023-06-30 v1 Quantum Physics

Abstract

The orbital angular momentum (OAM) spatial degree of freedom of light has been widely explored in many applications, including telecommunications, quantum information and light-based micro-manipulation. The ability to separate and distinguish between the different transverse spatial modes is called mode sorting or mode demultiplexing, and it is essential to recover the encoded information in such applications. An ideal dd mode sorter should be able to faithfully distinguish between the different dd spatial modes, with minimal losses, have dd outputs, and have fast response times. All previous mode sorters rely on bulk optical elements such as spatial light modulators, which cannot be quickly tuned and have additional losses if they are to be integrated with optical fiber systems. Here we propose and experimentally demonstrate, to the best of our knowledge, the first all-in-fiber method for OAM mode sorting with ultra-fast dynamic reconfigurability. Our scheme first decomposes the OAM mode in fiber-optical linearly polarized (LP) modes, and then interferometrically recombines them to determine the topological charge, thus correctly sorting the OAM mode. In addition, our setup can also be used to perform ultra-fast routing of the OAM modes. These results show a novel and fiber integrated form of optical spatial mode sorting that can be readily used for many new applications in classical and quantum information processing.

Keywords

Cite

@article{arxiv.2306.16472,
  title  = {All-in-fiber dynamic orbital angular momentum mode sorting},
  author = {Alvaro Alarcón and Santiago Gómez and Daniel Spegel-Lexne and Joakim Argillander and Jaime Cariñe and Gustavo Cañas and Gustavo Lima and Guilherme B. Xavier},
  journal= {arXiv preprint arXiv:2306.16472},
  year   = {2023}
}

Comments

9 pages, 6 figures

R2 v1 2026-06-28T11:17:15.195Z